Copper-Ti_3SiC_2 composite powder prepared by electroless plating under ultrasonic environment

In this article, a new type of Cu-Ti3SiC2 composite powder prepared using the electroless plating technique was introduced. The initial Ti3SiC2 particles are 11 μm in diameter on an average. The Cu plating was carried out at middle temperature （62-65℃） with the application of ultrasonic agitation. The copper deposition rate was determined by measuring the weight gain of the powder after plating. It has been found that the pretreatment of Ti3SiC2 powder is very important to obtain copper nanoparticles on the surface of Ti3SiC2 The optimum procedure before plating aimed to add activated sites and the adjustment of the traditional composition of the electroless copper plating bath could decelerate the copper deposition rate to 0.8 gm/h. X-ray diffraction （XRD） indicates that the chemical composition of the plating layer is copper. SEM images show that the surface of the Ti3SiC2 particles is successfully coated with continuous copper layer. The wetting property between the copper matrix and Ti3SiC2 can be improved so as to increase the interfacial strength.

PREPARATION AND CORROSION RESISTANCE OF NiP/TiO_2 COMPOSITE FILM ON CARBON STEEL IN SULFURIC ACID SOLUTION

A NiP/TiO2 composite film on carbon steel was prepared by electroless plating and sol-gel composite process. An artificial neural network was applied to optimize the prepared condition of the composite film. Corrosion behavior of the NiP/TiO2 composite film was investigated by polarization resistance measurement, anode polarization, ESEM （environmental scanning electron microscopy） and EIS （electrochemical impedance spectroscopy） measurements. Results showed that the NiP/ TiO2 composite film has a good corrosion resistance in 0.5mol/L H2SO4 solution. The element valence of the composite film was characterized by XPS （X-ray photoelectron spectroscopy） spectrum, and an anticorrosion mechanism of the composite film was discussed.

Effects of Sn residue on the high temperature stability of the H_2-permeable palladium membranes prepared by electroless plating on Al_2O_3 substrate after SnCl_2–PdCl_2 process: A case study

The stability of composite palladium membranes is of key importance for their application in hydrogen energy systems. Most of these membranes are prepared by electroless plating, and beforehand the substrate surface is activated by a SnCl_2–PdCl_2 process, but this process leads to a residue of Sn, which has been reported to be harmful to the membrane stability. In this work, the Pd/Al_2O_3 membranes were prepared by electroless plating after the SnCl_2–PdCl_2 process. The amount of Sn residue was adjusted by the SnCl_2 concentration, activation times and additional Sn(OH)_2coating. The surface morphology, cross-sectional structure and elemental composition were analyzed by scanning electron microscopy(SEM), metallography and energy dispersive spectroscopy(EDS), respectively. Hydrogen permeation stability of the prepared palladium membranes were tested at450–600 °C for 400 h. It was found that the higher SnCl_2 concentration and activation times enlarged the Sn residue amount and led to a lower initial selectivity but a better membrane stability. Moreover, the additional Sn(OH)_2coating on the Al_2O_3 substrate surface also greatly improved the membrane selectivity and stability.Therefore, it can be concluded that the Sn residue from the SnCl_2–PdCl_2 process cannot be a main factor for the stability of the composite palladium membranes at high temperatures.

铜包覆Ti_(2)AlC增强铜基复合材料的制备及性能

通过化学镀技术在Ti_(2)AlC粉体表面镀上一层金属铜,然后以铜粉、镀铜Ti_(2)AlC粉为原料,采用烧结法制备了10%Ti_(2)AlC/Cu复合材料。结果表明:化学镀铜溶液pH为11~12时,Ti_(2)AlC粉体表面的铜镀层光滑致密、不易脱落。10%Ti_(2)AlC/Cu复合材料的组织分布均匀,镀铜Ti_(2)AlC颗粒与铜基体结合紧密;复合材料相对密度为94.31%,导电性能和硬度相对于纯铜稍有下降;复合材料的平均摩擦系数随着载荷的增加稍微下降,从10 N时的0.4862到30 N时的0.3858,相对于纯铜有明显降低;复合材料的磨损率随着载荷增加逐渐下降,从10 N时的0.208 g·N^(-1)·m^(-1)变为30 N时的0.147 g·N^(-1)·m^(-1)。表明复合材料具有较好的耐磨性。

纳米Al_(2)O_(3)颗粒掺杂对化学镀Ni-Cu-P镀层耐蚀性的影响

为提高镀锌铁片表面化学镀层Ni-Cu-P的耐蚀性,在镀液中添加纳米Al_(2)O_(3)颗粒制备了Ni-Cu-P-Al_(2)O_(3)复合镀层。采用贴滤纸法、扫描电镜(SEM)及其附带的能谱仪(EDS)、电化学工作站对镀层孔隙率、表面形貌、元素含量及耐蚀性进行测试分析。结果表明,掺杂纳米Al_(2)O_(3)颗粒得到的Ni-Cu-P-Al_(2)O_(3)复合镀层相较于Ni-Cu-P镀层孔隙率降低了0.02 N/cm^(2)、腐蚀电流降低了2.01×10^(-8)A/cm^(2)、腐蚀电位正移了0.015 V。

化学镀法制备Ni包覆ZrO_2微粉

采用共沉淀ｔ－ＺｒＯ２（１０％ＭｇＯ，以摩尔计）微粉为基体原料，用化学镀法制备了不同Ｎｉ含量的Ｎｉ包覆ＺｒＯ２复合微粉．由于采用了合适的络合剂和稳定剂，反应速度易于控制，且粉末不需活化处理即可施镀．运用ＸＲＤ、ＳＥＭ、ＥＰＡＸ等分析检测技术研究了粉体．结果表明，镀覆后颗粒均由Ｎｉ和ＺｒＯ２两种成份复合而成。

化学镀Ni-P合金/TiO_2复合膜的耐蚀性研究

在改进常规制备方法的基础上,提出化学镀/溶胶-凝胶复合法在碳钢表面制备TiO2复合膜的新技术.用X衍射研究了复合膜的组织形态,采用环境扫描电镜(ESEM)表征了复合膜的表观和断面形貌,用极化电阻、阳极极化曲线测量等方法研究TiO2复合膜在0.5mol/L硫酸和0.5mol/L氯化钠溶液中的耐蚀性能.结果表明A3钢表面的TiO2复合膜耐蚀性能优良.

石墨烯化学镀铜对放电等离子烧结石墨烯增强铝基复合材料组织和性能的影响

通过化学镀方法得到镀铜石墨烯粉末,再通过静电自组装方法将镀铜石墨烯粉末与铝粉混合,然后经放电等离子烧结工艺制备镀铜石墨烯增强铝基复合材料,研究了不同质量分数(0.1%,0.2%,0.3%,0.4%,0.5%)镀铜石墨烯增强铝基复合材料的微观结构和性能,并与质量分数0.1%未镀铜石墨烯增强铝基复合材料进行对比。结果表明:镀铜石墨烯在复合材料中分散均匀,复合材料的相对密度均在99%以上;铝和铜发生反应生成了中间相Al_(2)Cu,但未有Al_(4)C_(3)界面相生成;镀铜石墨烯增强铝基复合材料的硬度和耐磨性能均优于未镀铜石墨烯增强铝基复合材料;随着镀铜石墨烯含量的增加,复合材料的硬度先升高后降低,磨损质量损失和摩擦因数均呈先减小后增加的趋势。当镀铜石墨烯的质量分数为0.2%时,复合材料具有优异的综合性能,其硬度为74.7 HV,磨损质量损失和摩擦因数均最小,分别为0.0023 g和0.259,磨损机制为氧化磨损。

Ni-P-CeO_2化学复合镀层的XPS和AES分析

运用 SEM、AES和 XPS分析了 Ni- P- Ce O2 的镀层表面形貌及镀层组成。研究显示 ,Ni-P- Ce O2 镀层表面光滑、均匀、光洁度好 ,其相对原子摩尔分数分别为 Ni75.51 %、P1 3.37%、Ce2 .71 %、O6.81 %和 Fe1 .38%。镀层厚度为 6.0 μm,耐 1 0 0 g·L- 1 Na Cl溶液和 1 % (体积分数 ) H2 S气体的腐蚀能力较强。

TiO_2复合膜的耐蚀性能研究

采用化学镀 /溶胶 凝胶复合法在碳钢表面制备TiO2 复合膜 ,用X射线衍射法研究复合膜的组织形态 ,采用环境扫描电镜 (ESEM)表征了复合膜的表观形貌 ,用极化阻力、电化学阻抗谱测量等方法研究TiO2 复合膜在0 5mol/L硫酸和 0 .5mol/L氯化钠溶液中的耐蚀性能。结果表明A3钢表面的TiO2

含硫稳定剂对纳米Ni-P-TiO_2复合镀层形貌与性能的影响

以镀液稳定性、沉积速率、镀层孔隙率、显微硬度和耐蚀性为评价指标,研究了硫代硫酸钠、2-巯基苯并噻唑以及DL-半胱氨酸三种稳定剂对Ni-P纳米TiO_2复合化学镀的影响,研究所采用的基础镀液配方及工艺条件为:26 g/L六水合硫酸镍,32 g/L次亚磷酸钠,15 g/L乙酸钠,20 g/L一水合柠檬酸,10~30 mg/L表面活性剂,1~2 g/L纳米TiO_2,θ为(88±1)℃,pH为4.8±0.2,反应t为1 h。结果表明,硫代硫酸钠对镀层耐蚀性、显微硬度和镀液稳定性的效果都较差,不适合作为本体系的稳定剂;DL-半胱氨酸作为稳定剂时虽然对镀层显微硬度和沉积速率比2-巯基苯并噻唑稍好,但镀液稳定性和镀层耐蚀性不佳。实验表明2-巯基苯并噻唑更适合作为本体系稳定剂,且作为稳定剂时的最佳用量为6.0 mg/L,在该用量下,镀层的沉积速率可达144.6 g/(m^2·h),镀层孔隙率为1.5个/cm^2,显微硬度可达682.5 HV。

ZTA陶瓷颗粒表面Ni-TiB_(2)镀层的制备及工艺优化

为了解决氧化锆增韧氧化铝(ZTA)陶瓷颗粒增强铁基复合材料制备过程中,ZTA陶瓷颗粒与铁基体润湿性差的问题,在ZTA陶瓷颗粒表面镀覆Ni-TiB_(2)镀层。通过化学镀镍及电镀Ni-TiB_(2)两步法,先在ZTA陶瓷颗粒表面化学镀镍得到具有导电性的ZTA@Ni颗粒,再在ZTA@Ni颗粒表面电镀均匀的Ni-TiB_(2)复合镀层。采用XRD对ZTA、ZTA@Ni和ZTA@Ni-TiB_(2)颗粒进行物相分析;使用数码相机和SEM分别对ZTA、ZTA@Ni和ZTA@Ni-TiB_(2)颗粒进行宏观及微观形貌观察;并利用EDS分析镀层中各个元素的质量百分比。分别研究电镀液中TiB_(2)粉末浓度、氯化胆碱-乙二醇(ChCl-EG)浓度及沉积电压3种因素对Ni-TiB_(2)复合镀层的成分及表面形貌的影响。结果表明,在1.8 V的沉积电压下,TiB_(2)粉末掺杂浓度为6 g/L,ChCl-EG的浓度为9 g/L时,Ni-TiB_(2)复合镀层平整均匀,无孔洞产生,镀层中的TiB_(2)质量百分数可以达到58.22%~64.79%。

原位聚合法制备Ni-P纳米TiO_2化学复合镀层

采用原位聚合法从液相中直接制备了Ni-P纳米TiO2化学复合镀层,经扫描电子显微镜观察发现,复合镀层中TiO2粒子呈球状,粒径在20～30 nm范围内,且单分散性极好;并进一步考察了溶胶添加量对沉积速率和镀层孔隙率的影响.

基于RSM-BBD的Ni-Cu-P/CeO_(2)镀层的制备与性能

在化学镀Ni-Cu-P三元镀层的基础上,向镀液中加入CeO_(2)纳米颗粒,并采用响应面实验设计(RSM-BBD)进行镀液配方优化,利用最佳的配方制备了Ni-Cu-P/CeO_(2)复合镀层。采用扫描电镜(SEM)、能谱仪(EDS)、X射线衍射仪(XRD)、电化学工作站和显微硬度仪等研究了复合镀层的表面形貌、微观组织结构、耐蚀性以及硬度。结果表明:Ni-Cu-P镀层和Ni-Cu-P/CeO_(2)复合镀层的表面光滑平整,没有胞状颗粒,复合镀层中有CeO_(2)颗粒镶嵌在其中,且复合镀层的晶粒更细小更致密;Ni-Cu-P镀层的硬度和孔隙率分别为479.1 HV0.1和0.12,加入CeO_(2)颗粒后复合镀层的硬度增加,孔隙率更低,分别为678.7 HV0.1和0.04;极化曲线测试结果表明,Ni-Cu-P/CeO_(2)复合镀层的耐蚀性比Ni-Cu-P镀层的耐蚀性更好,其腐蚀电位和腐蚀电流密度分别为-0.559 V和7.943×10^(-8)A·cm^(-2)。

Formation of TiO2 Modified Film on Carbon Steel

A new technique for preparing TiO2 modified film on carbon steel was accomplished by electroless plating and sol-gel composite process. The artificial neural network was applied to optimize the preparing condition of TiO2 modified film. The optimized condition for forming TiO2 modified film on carbon steel was that NiP plating for 50 min, dip-coating times as 4, heat treatment time for 2 h, and the molar ratio of complexing agent and Ti(OC4HZ9)4 kept 1.5:1. The results showed that TiO2 modified film have good corrosion resistance. The result conformed that it is feasible to design the preparing conditions of TiO2 modified film by artificial neural network.

Modification and Anticorrosion Property of Carbon Steel with TiO_2 Film

A new TiO2 modified film on carbon steel was prepared by electroless plating and sol gel composite process. An artificial neural net was used to optimize the preparing condition of the film. The optimized condition of the TiO2-modified film on carbon steel is as follows： plating time of NiP is 50 min, number of dip coating is 4, heat treatment time is 2 h, and the molar ratio of complexing reagent to Ti（OC4 H9）4 is 1.5 ： 1. Corrosion behavior of carbon steel with coating was investigated by polarization resistance measurement, anode polarization, EIS and ESEM measurement. XPS was used to characterize the element valence of the modified film. Results show that carbon steel with TiO2 modified film has good corrosion resistance in 0.5 mol/L of H2SO4 solution and 0.5 mol/L of NaCl solution. It is also found that the preparing condition of forming TiO2-modified film can be obtained easily by the artificial neural net.

复合镀液中Al_(2)O_(3)掺杂量对Ni-P-Al_(2)O_(3)-PTFE复合镀层性能的影响

在复合镀液中添加不同含量的Al_(2)O_(3),采用化学镀方法制备Ni-P-Al_(2)O_(3)-PTFE(聚四氟乙烯)复合镀层,研究了复合镀液中Al_(2)O_(3)质量浓度(0~3.0 g·L^(-1))对复合镀层显微组织、硬度、耐磨性能的影响。结果表明:随着复合镀液中Al_(2)O_(3)掺杂量的增加,化学镀Ni-P-Al_(2)O_(3)-PTFE复合镀层中Al_(2)O_(3)含量先升高后降低,Ni-P基质的结晶性先增强后减弱,硬度先升高后降低,磨损质量损失先减小后增加;当Al_(2)O_(3)质量浓度为2.0 g·L^(-1)时,Ni-P基质结晶性优良,Ni-P-Al_(2)O_(3)-PTFE层与Ni-P过渡层结合良好,复合镀层中Al_(2)O_(3)的含量最高,PTFE、Al_(2)O_(3)粒子均匀弥散地镶嵌在Ni-P基质中,复合镀层的硬度最高,为7.6 GPa,磨损质量损失最低,复合镀层具有优异的耐磨性能。

Ag复合中空纤维膜的制备与性能

以化学镀法制备了Ag复合中空纤维膜,考察了温度对Ag膜的影响,测试了气体渗透性能。结果表明,化学镀温度45℃时,有利于Ag颗粒在载体上的有效沉积,可以形成连续致密的Ag膜。150~300℃,氧渗透通量随压力和温度的增大而增加,氮气渗透通量逐渐减小。300℃时,O_(2)渗透通量为0.027 mol·m^(-2)·s^(-1)。

三元配位体系对低磷复合化学镀镍-磷-纳米二氧化钛的影响

低磷复合化学镀镍层具有优异的耐碱腐蚀性和超高的硬度,但尚未应用到规模化生产中。以沉积速率、镀层磷含量、硬度及孔隙率为评价指标,在乳酸-丙酸二元配位剂的基础上,分别研究了采用三乙醇胺、苹果酸、丁二酸、乙二胺作为辅助配位剂时对低磷复合化学镀镍-磷-纳米二氧化钛的影响。镀液的基础配方和工艺条件为:NaH_(2)PO_(2)·H_(2)O_(2)3 g/L,NiSO_(4)·6H_(2)O_(2)8 g/L,辅助配位剂适量,乳酸18 mL/L,丙酸4 mL/L,CH 3 COONa·3H_(2)O 15 g/L,十二烷基苯磺酸钠(SDBS)40 mg/L,pH值4.8±0.2,温度(85±2)℃,施镀时间1 h。结果表明:采用乙二胺作为辅助配位剂时,镀层的综合性能良好。当乙二胺的用量为4 mL/L时,镀速为23.62μm/h,镀层磷含量为3.53%,镀层镀态硬度为561.4 HV,孔隙率为0.35个/cm 2。

化学复合镀Ni-Mo-P/CeO_(2)镀层结构与摩擦学性能研究

为研究CeO_(2)稀土添加对Ni-Mo-P化学镀层结构及性能的影响,采用化学复合镀技术,在GH4169镍基高温合金表面制备Ni-Mo-P镀层、Ni-Mo-P/CeO_(2)复合镀层,并对其进行400℃热处理。利用SEM、EDS、XRD对镀层组织结构、元素组成、相结构进行分析。采用显微硬度计、纳米压痕仪、球-盘式摩擦磨损试验机、三维表面轮廓仪对镀层力学性能和摩擦学性能进行分析。结果表明:Ni-Mo-P镀层分布有典型的球状结构,为纳米晶和非晶混合的混晶态结构,结晶化程度只有16%。加入CeO_(2)颗粒后Ni-Mo-P/CeO_(2)复合镀层内分布有孔洞,镀层粗糙度增加,镀层结晶化程度提高至51%。400℃热处理后镀层内析出纳米晶Ni_(3)P相,镀层结晶度增大,镀层内孔洞消失,组织致密度获得改善。添加CeO_(2)颗粒使镀层的硬度有所降低,热处理可明显提高镀层的硬度;热处理后Ni-Mo-P镀层硬度(HV)从镀态的6321 MPa上升至13504 MPa,Ni-Mo-P/CeO_(2)复合镀层硬度(HV)由镀态的5351 MPa提高至11182 MPa。400℃热处理可以明显提高镀层的耐磨性能;CeO_(2)颗粒的添加提高了镀层的韧性,抑制了磨损过程中裂纹的产生,使得复合镀层具有优良的耐磨性能。